WO2019096476A1

WO2019096476A1 - Method for coating components

Info

Publication number: WO2019096476A1
Application number: PCT/EP2018/075937
Authority: WO
Inventors: Jean-Marc Segaud; Wolfram Wagener
Original assignee: Bayerische Motoren Werke Aktiengesellschaft
Priority date: 2017-11-17
Filing date: 2018-09-25
Publication date: 2019-05-23
Also published as: DE102017220522A1; US20200270735A1; CN111094616A

Abstract

The invention relates to a method for coating components, particularly engine components, comprising the steps of: - producing a coating material by or when melting, fusing and/or incipient melting a material, for a first coating method; and - using this coating material at least partly in a second coating method.

Description

Process for coating components

The present invention relates to a method for coating components, use of a coating method, and a coating material.

The components or assemblies in question are in particular cylinder heads of internal combustion engines. To z. B. to prevent burial of the valves in the cylinder head, so-called valve seat rings are often provided which z. B. are made of a sintered material. In addition, it is also known to form the valve seats for the valves directly on the cylinder head by means of suitable coating methods, cf. z. For example, DE 199 60 884 A1. Thermal spraying processes, such as high-speed flame spraying (HVOF), or laser cladding, are known in this context. It is common to the known methods that they unfortunately require a high use of resources.

It is therefore an object of the present invention to provide a method for coating components, a use of a Beschichtungsverfah rens and a coating material, which are characterized in particular by a low use of resources.

This object is achieved by a method according to claim 1, by a use according to claim 10 and by a coating material according to claim 11. Further advantages and features emerge from the subclaims and the description.

According to the invention, a method for coating components, in particular engine components, comprises the steps: - Producing a coating material by or during the deposition, melting and / or melting of a material for a first coating process;

At least partially using the coating material for a second coating process.

In this way, a very cost-effective and resource-saving coating process can be realized. The second coating process is advantageously a different process than the first coating process. The advantage lies in the fact that the coating material is formed as a by-product of the first coating process and is used for the second coating method further ver or can be.

The method preferably comprises the step of applying, abrading and / or fusing a wire material for a first coating process. Under wire material is every electrically conductive, wire-shaped material verstan the. In the method, powder, wire, cord and / or rod-shaped materials can alternatively be up, down or melted. As energy sources for the arrival, melting or melting serve z. As an electric shear arc, a plasma jet, a fuel-oxygen flame, a fuel-oxygen high-speed flame, fast preheated gases or a laser beam.

According to a preferred embodiment, the second coating method is cold gas spraying. Cold gas spraying is a coating process in which the coating material in powder form is applied to a carrier material at a very high speed. For this purpose, according to one embodiment, a heated to a few 100 ° C process gas (nitrogen or helium) accelerated by expansion in a Laval nozzle to supersonic speed and then injected the coating material into a gas jet. In this case, the injected coating material is accelerated to such a high speed that it on impact the substrate forms a dense and firmly adhering layer. The cold processing, among other things, ensures that the constituents of the coating material do not melt. In the present case, preferred process pressures are about 20 to 80 bar, preferably about 45 bar. When exiting the coating gun, speeds of about 750 to 1700 m / s are set, preferably from about 1000 to 1250 m / s.

It has surprisingly been found that in particular during the melting of wire material, in particular for the cold gas spraying, very well ge suitable powder or coating material is produced or can be produced.

According to a preferred embodiment, the first coating process is a thermal spraying process, in particular arc wire spraying. In this case, an arc is ignited between two wire-shaped spray materials of the same or different type. The wire tips are melted at a temperature of about 4000 ° C and blown by means of atomizer gas onto the prepared workpiece surface. Using nitrogen or argon instead of air as a nebulizer gas reduces oxidation of the materials. The second coating method is preferably used to form or form or coat valve seats of cylinder heads of internal combustion engines. As a consequence, the method is therefore particularly advantageous because the arc wire spraying or the first coating method is preferably used as the coating method of cylinder running surfaces. As a result, a very lean and resource-saving manufacturing process can be realized.

According to one embodiment, the method comprises the steps:

- preparing the coating material in performing the first coating process;

- Collecting the coating material during or after performing Ren the first coating method. In other words, according to one embodiment, in the present case, therefore, a first coating is carried out with arc wire spraying, the coating material being formed / produced indirectly by the melting of a wire material thereby carried out. It has been found that in the melting of wire material, as ren in thermal Spritzverfah, such as the arc wire spraying is performed, an ideally struktu-based coating material, in particular for the cold gas spraying is formed.

According to one embodiment, the method comprises the step:

- Performing the first coating method in inert Atmosphä re, in an oxygen-free or in an at least oxygen-poor environment.

An oxidation of the coating material can thus advantageously be avoided or at least minimized.

According to one embodiment, the method comprises the step:

- Preparation of the coating material for the second Beschich

processing methods.

The processing includes, for example, cleaning, filtering, screening, separation and / or mixing of the coating material. Advantageously, recourse can be had to purely mechanical treatment measures which do not necessitate the use of chemical substances or the like.

According to one embodiment, the method, in particular concerning the aforementioned preparation, comprises the steps:

- Seven in a defined size;

- Packaging in an inert atmosphere or in an oxygen-free or oxygen-poor environment.

According to one embodiment, the method comprises the steps: - Performing the first coating method in a suction chamber;

- Suction and storage or storage of, in particular surplus Sigen, coating material.

The above-mentioned process steps show that for the process advantageous enough, no expensive equipment, devices and the like are necessary.

According to one embodiment, the method comprises the steps:

- Providing a cylinder head and a crankcase;

- Coating the crankcase, in particular the Zylinderlaufflä surfaces of the crankcase, in the first coating process;

- Coating the cylinder head, in particular at least one Ven tilsitzes the cylinder head, in the second coating process.

Conveniently, the method comprises the step:

- temporal and / or local separation of the first and second Beschich process.

This advantageously allows maximum flexibility when using the method.

The invention is also directed to a use of a first coating method for producing a coating material for a two-tes, different, coating method.

For the use in the context of the method he mentioned advantages apply analogously or accordingly.

According to one embodiment, the method is carried out as follows:

Applying a first and a second coating to an assembly, wherein the first coating is provided by a first coating method, and wherein the second coating is produced with coating material from the first coating method. The first and the second coating methods differ from each other. According to egg ner preferred embodiment, the assembly comprises a cylinder head and a crankcase, wherein the cylinder head has at least one valve seat having the second coating, and wherein the crank housing has at least one cylindrical surface having the first Beschich device. In particular, the assembly is thus an engine comprising the cylinder head and the crankcase, wherein the running surfaces of the crank housing by means of a thermal spraying method, in particular Lichtbo gendrahtspritzen coated, and wherein the generated here, over schüssige coating material for coating the valve seats of Zylin derkopfs used becomes.

According to one embodiment, a thickness of the second coating is in a range of about 50-400 pm, in particular in a range of et wa 200-300 pm. Depending on the desired total thickness, the coating can be applied in several layers of, for example, approximately 50 μm each time.

According to one embodiment, at least one valve seat is an inlet valve seat and at least one valve seat is an outlet valve seat, wherein a thickness of the first coating and / or a composition at the inlet and outlet are formed differently. Depending on the process management, it is very easy to take into account the different requirements for the Beschich device by a different process management. This different process control can show, for example, in an adaptation of the composition of the coating material for the cold gas spraying or in a different embodiment, example, in terms of the thickness of the coating.

According to one embodiment, the method comprises the step:

- Limiting a surface temperature in the second coating method to about 150 ° C. Since during cold gas spraying no high thermal or mechanical loads on the surface to be coated, in particular the special special valve seat of the cylinder head, occur, this does not need to be adapted separately or reinforced. As a result, the cooling channels can be brought closer to the combustion chamber and to the valve or valves, whereby a better cooling of the engine is possible. In addition, the weight of the cylinder head can be reduced because the mechanical and thermal loads to which it is designed are smaller.

The invention is also directed to a coating material prepared by a process according to the invention, wherein the Beschichtungsmateri al powdered, in particular spherical, is.

Advantageously, a powder or particle diameter is in a range from about 5 to 150 μm, more preferably in a range from about 20 to 50 μm.

The coating material is, according to one embodiment, an Fe base powder with an Fe content of at least 94%. Other ingredients are for. C, Si, Mn, Cr, Ni and Cu. Alternatively, a powder having an Fe content in a range of at least about 68% is used, with the Cu content being up to about 14%. Other ingredients are e.g. C, Co, Mo, Ni, Cr, Mn and S.

For the coating material, the advantages mentioned in connection with the method or with the use apply analogously and accordingly and vice versa and with each other.

Claims

claims

1. A method for coating components, in particular engine components,

comprising the steps:

- Producing a coating material by or during the formation, melting and / or melting of a material for a first Beschich processing method;

At least partially using the coating material for a second coating process.

2. The method according to claim 1,

comprising the step:

- Up, Ab and / or melting a wire material.

3. The method according to claim 1 or 2,

wherein the second coating method is cold gas spraying

4. The method according to any one of the preceding claims,

wherein the first coating process is a thermal spraying process, in particular electric arc wire spraying.

5. The method according to any one of the preceding claims,

comprising the steps:

Preparing the coating material in performing the first coating process;

- Collecting the coating material during or after performing the first coating method.

6. The method according to any one of the preceding claims,

comprising the step: - Performing the first coating process in an acid-free or at least oxygen-poor environment.

7. The method according to any one of the preceding claims,

comprising the steps:

- Performing the first coating method in a suction chamber;

- Suction and storage of, in particular excess, Be coating material.

8. The method according to any one of the preceding claims,

comprising the steps:

- Providing a cylinder head and a crankcase;

- Coating the crankcase in the first Beschichtungsverfah ren;

Coating the cylinder head in the second coating process.

9. The method according to any one of the preceding claims,

comprising the step:

- Local and / or temporal separation of the first and second coating procedures.

10. Use of a first coating method for producing a coating material for a second coating method.

1 1. A coating material prepared by a method according to any one of claims 1 to 9,

wherein the coating material is powdery, in particular kugelför mig.

12. Coating material according to claim 1 1,

wherein a majority of the particles / particles has a diameter of 5 to 150 pm, in particular 15-80 pm.

13. Coating material according to claim 1 1 or 12,

having an Fe content of at least 94%.

14. Coating material according to claim 1 1 or 12,

having an Fe content of at least 68% and a Cu content of up to 14%.